%!TEX root = all.tex

%\begin{figure}
%
%\subfloat[\bf L$_{2}$ norm]{
%  \includegraphics[keepaspectratio=true,scale=0.26]{plots/L2norm_2ndorder_graddis_exact.jpg}
%}
%\subfloat[\bf L$_{2}$ norm ratio]{
%  \includegraphics[keepaspectratio=true,scale=0.26]{plots/L2norm_2ndorder_graddis_exact_ratio.jpg}
%}
%  
%\subfloat[\bf L$_{\infty}$ norm]{
%  \includegraphics[keepaspectratio=true,scale=0.26]{plots/Linfnorm_2ndorder_graddis_exact.jpg}
%}
%\subfloat[\bf L$_{\infty}$  norm ratio]{
%  \includegraphics[keepaspectratio=true,scale=0.26]{plots/Linfnorm_2ndorder_graddis_exact_ratio.jpg}  
%}
%
%\subfloat[\bf L$_{2}$ and L$_{\infty}$ norms, error ratios and order of accuracy for 3D exponential profile (source terms are from analytical function)]{

\begin{table} 
\setlength\extrarowheight{3pt}
\newcolumntype{Y}{>{\raggedright\arraybackslash}X}
\begin{tabularx}{6in}{|m{55pt}|m{55pt}|Y|Y|m{55pt}|Y|Y|}
\hline
\bf Grid & \bf L2-norm & \bf Ratio & \bf Observed order of accuracy & \bf Max Error & \bf Ratio & \bf Observed order of accuracy \\
\hline
40x40x40 & 8.3840E-09 & -- & -- & 2.6480E-08 & -- & -- \\
\hline
80x80x80 & 1.8630E-09 & 4.50 & 2.17 & 5.9021E-09 & 4.49 & 2.17 \\
\hline
160x160x160 & 4.5798E-10 & 4.07 & 2.03 & 1.4644E-09 & 4.03 & 2.03 \\
\hline
\end{tabularx}
%} end of subfloat


\caption{L$_{2}$ and L$_{\infty}$ errors and their ratios as functions of time from \ul{\emph{second order accuracy with gradient limiter disabled}} test for exponential 3D profile using source terms from analytical function}
\label{tbl:3}


\end{table}
%\end{figure}


%\end{document}